EP0557245A1 - Cylinder for machines treating web material - Google Patents

Abstract

A forme or impression cylinder (1) of rotary printing units, which rests rotatably in lateral bearing plates (4, 5) by means of bearing journals (2, 3), has a liquid line (8) passing through it approximately in the direction of the axis of rotation (7) for conditioning its cylinder surface (6), the liquid line (8) having lines (13) which run below the cylinder surface (6) and communicate with distribution (11) and collection spaces (12) which are arranged at the end of the cylinder (1) and have a supply line (14) and an outlet line (18) respectively. <IMAGE>

Description

The present invention relates to cylinders for web-like material processing machines according to the preamble of claim 1.

Such facilities serve inter alia the tempering of the plate or pressure cylinders on the circumference, heat being able to be supplied to and removed from the cylinder surface by a circulating medium.

According to German Offenlegungsschrift 34 39 090, a cylinder of the type described in the opening paragraph is known, in which heat is indirectly removed from the surface by the circulation of cooled water. In this known cylinder, there is an annular space between the jacket tube coated with a rubber cover on the circumference and the coaxially guided spindle, which is divided into separate chambers. At the ends of the casing tube, trunnions are provided lie rotatably in side bearing plates.

The spindle protrudes laterally from the end shields so that a bending compensation on the spindle can be achieved by means of radially acting actuators. The spindle is spirally surrounded by a liquid line for cooling the oil enriched in the intermediate space, this line running in the region of the bearing journal of the cylinder in the axis of rotation of the spindle, water being used to cool the oil. This heat exchange proves to be very sluggish and energy intensive. This construction also allows moderate, difficult to monitor temperature control on the circumference of the cylinder.

The object of the invention is therefore to provide a cylinder of the type described at the outset, which can be of uniform temperature and full-walled design on the circumference.

According to the invention, this object is achieved according to the features of the characterizing part of patent claim 1.

This near-surface cable routing considerably reduces the inertia of the heat transfer and noticeably improves the heat balance on the cylinder surface. At the same time, the control of the heat on the cylinder surface is simplified and the energy requirement is reduced.

In an advantageous embodiment, the cylinder is further characterized by a supply line of the liquid arranged coaxially in a bearing journal, which feeds through the cylinder in the direction of the axis of rotation and opens at the cylinder end into a distribution space which is connected by the line arrangement to the collecting space arranged at the opposite end of the cylinder whose drain line is the feed line surrounds annular space.
This embodiment makes it possible to provide the inlet and outlet opening of the liquid line at the journal end.
Of course, it is at the designer's discretion to arrange the feed and / or drain line offset to the axis of rotation of the cylinder or the bearing journal, for example, ending in a ring line.
In the case of a coaxial supply and discharge of the liquid, a known supported rotating connection could be used at the inlet and outlet opening.

In the cylinder design just described, the feed line can pass through the collecting space as a tube and then be formed as a bore in the cylinder or. end in the distribution room.

For the tight separation of the feed line and the collecting space of the liquid, a seal bearing against the feed line could be provided in the bore.

Alternatively, the supply line and the drain line could be functionally interchanged, in that a liquid supply line arranged in a bearing journal coaxial to the axis of rotation of the cylinder opens into a distribution space provided on the cylinder end associated with the journal, which through the line arrangement is arranged at the opposite end of the cylinder is connected to the collection line having the discharge line leaving the liquid supply direction, in such a way that the discharge line passing through the distribution space approximately in the axis of rotation of the cylinder is continued within the supply line and with it in the bearing journal to form an annular space.

In this embodiment, the conditions of the previous embodiment apply approximately, the cross sections of the individual line sections being adapted to one another in the sense of an ideal flow.

The drain line can be designed as a bore in the cylinder and the distribution space as a pipe.

The cylinder can furthermore pass through a feed line arranged in a bearing journal coaxial to the axis of rotation of the cylinder, which leads into a distribution space provided at the cylinder end associated with the bearing journal, which through the line arrangement with the drain line provided at the opposite cylinder end leads into a discharge journal guided in its associated journal end having collecting space is connected.

In order to be able to act on the entire width of the cylinder surface, it is advantageous if the distribution and collection space are designed as end-side recesses in the cylinder.

Because the depressions extend into the region of the line arrangement, a largely uniform liquid distribution can be achieved.

In the interest of high efficiency on the cylinder surface, which can be achieved by extending the line arrangement to the entire width of the cylinder, it is advantageous if the bearing pins are detachably fastened by means of a flange on the end faces of the cylinder and form part of the distribution and collection space.

To accomplish this further development, the trunnions can be attached to an adapter immersed in the recess be attached.
Due to the limited installation options due to the line arrangement and the distribution and collection spaces, the adapter provided on the front cylinder ends can prove to be a different solution, in particular if the cylinder is to have a balanced surface over its entire width.

These embodiments according to the invention can also be used for cylinders which have on the circumference a channel running parallel to the axis of rotation for a tensioning and clamping device for plate or other coverings.

In this case, the distribution and collection space can be formed with a wall that has approximately the cross-sectional shape of the channel and projects laterally into the recess. Accordingly, the adapter must also be provided with a corresponding recess on the circumference.

Fig. 1

einen Längsschnitt durch einen Zylinder gemäss der Linie I-I in Fig 2,

Fig. 2

einen Querschnitt durch einen Zylinder gemäss der Linie II-II in Fig. 1,

Fig. 3

einen Längsschnitt durch einen Zylinder in alternativer Ausführungsform,

Fig. 4

einen Längsschnitt durch einen Zylinder nach einer weiteren alternativen Auführungsform,

Fig. 5

einen Längsschnitt durch einen teilweise gezeigten Zylinder gemäss der Linie V-V in Fig. 5 und

Fig. 6

eine Seitenansicht gemäss Fig. 5.

The invention is discussed below with reference to several exemplary embodiments shown in the drawing. Show it:

Fig. 1

2 shows a longitudinal section through a cylinder according to line II in FIG. 2,

Fig. 2

2 shows a cross section through a cylinder along the line II-II in FIG. 1,

Fig. 3

a longitudinal section through a cylinder in an alternative embodiment,

Fig. 4

2 shows a longitudinal section through a cylinder according to a further alternative embodiment,

Fig. 5

a longitudinal section through a partially shown cylinder along the line VV in Fig. 5 and

Fig. 6

5 shows a side view according to FIG. 5.

1 to 4 show three alternative embodiments of a cylinder 1 for web-like material processing machines, in particular plate or impression cylinders of rotary printing units, not shown. These cylinders 1 have bearing pins 2, 3 at their lateral ends, which are rotatably mounted in bearing plates 4, 5.

A liquid line 8 passes through the approximately full-walled cylinder 1 approximately in the direction of its axis of rotation 7 from an inlet opening 9 via an arrangement of a plurality of lines 11 which run approximately parallel to the axis of rotation 7 and below the cylinder surface 6, to an outlet opening 10, the lines 13 ends in distribution 11 or collection spaces 12 arranged on the end face of cylinder 1 and communicating with inlet 9 and outlet openings 10.

1, the liquid line 8 has a feed line 14 which extends coaxially in the bearing journal 2 and which initially passes through the collecting space 12 provided at the front end of the cylinder end assigned to the inlet opening 9 of the liquid line 8 and then leads as a bore 15 to the distribution space 11 is. This distribution space 11 extends radially in the cylinder 1 towards the lines 13 connecting it, the cylinders 1 illustrated being provided on the circumference with a clamping and clamping device 16 for plate or other coverings, so that in this area of the cylinder circumference the adjacent lines 13 are separated from each other by an approximately larger distance.

The downstream end of the lines 13 leads into the collecting chamber 12 located at the opposite cylinder end of the distribution chamber 11, which is connected to the annular drain line 18 formed in the bearing journal 2 by the feed line 14 and a through bore 17 coaxial with the axis of rotation.
To separate the feed line 14 or the bore 15 from the collecting space 12, the bore 15 is provided with a seal 20 surrounding the tube 19. Of course, in each of the embodiment variants shown in FIGS. 1 to 4, both bearing journals 2, 3 are suitable for forming a section of the liquid line 8.

3 shows, analogously to FIG. 1, a cylinder 1, which essentially differs in that the liquid is supplied via the line designated as the discharge line 18 in FIG. 1 or the supply line 14, which is designed to form an annular space 21 serves as drain line 18. In this embodiment, the distribution space 11 is separated from the discharge line 18 by the seal 20.
Otherwise, the arrows in the liquid line 8 each point to the direction of flow.

Fig. 4 mediates a cylinder 1, in which the in a bearing pin 2,3 coaxial to the axis of rotation 7 of the cylinder 1 feed line 14 into one of these bearing pin 2 or. 3 or this cylinder end associated distribution space 11 opens, which through the lines 13 of the arrangement on the circumference of the cylinder 1 with the provided on the opposite cylinder end, in its associated journal 2 and. 3 guided drain line 18 of the collecting space 12 is connected.

5 and 6, the cylinder end according to FIG. 1 can be seen in more detail. The collecting room 12 as well The distribution space (not visible) at the opposite cylinder end is designed as a recess 21 which is excavated from the end face of the cylinder and which can be produced, for example, by milling, eroding or, in the absence of a clamping and clamping device, by turning.
As already mentioned, the space formed by the depression 21 extends at least approximately up to the periphery opened up by the lines 13.
The bearing journals 2, 3 are detachably fastened to the end faces of the cylinder 1 by means of flanges 22, for which purpose an adapter 23 is fastened in the recess 21, for example by welding seams. This adapter 23 has - as illustrated in FIG. 6 - approximately the shape of the recess 21, a wall 25 formed by the channel 24 of the tensioning and clamping device 16 projecting laterally into the cylindrical recess 21 in the present case.

Claims (14)

Cylinder for machines processing web-like material, in particular plate or printing cylinders of rotary printing units, which is rotatably supported by means of bearing journals in side bearing plates and is designed with a liquid line passing through the cylinder approximately in the direction of the axis of rotation, characterized in that an arrangement is arranged under the cylinder surface (6) It consists of several lines (8) running parallel to the axis of rotation (7), which are arranged in the distribution (11) or in the front of the cylinder (1), which communicates with the inlet (9) and outlet opening (10) of the liquid line (8) Collection rooms (12) open out. Cylinder according to Claim 1, characterized by a feed line (14) of the liquid arranged coaxially in a bearing journal (2, 3), which passes through the cylinder (1) in the direction of the axis of rotation (7) and opens at the cylinder end into a distribution chamber (11) which is connected by the line arrangement (8) to the collecting chamber (12) arranged at the opposite cylinder end, the drain line (18 ) surrounds the feed line (14) forming an annular space. Cylinder according to one of claims 1 and 2, characterized in that the feed line (14) passes through the collecting space (12) as a tube (19) and is subsequently designed as a bore (15) in the cylinder (1). Cylinder according to claim 3, characterized in that a seal (20) separating the feed line (14) from the collecting space (12) is arranged in the bore (15). Cylinder according to claim 1, characterized by a feed line (14) of the liquid arranged in a bearing journal (2, 3) coaxial to the axis of rotation (7) of the cylinder (1), which in a provided on the cylinder end associated with the bearing journal (2,3) Distribution space (11) opens, which is connected by the line arrangement (13) to the collecting space (12), which is arranged at the opposite end of the cylinder and has an outflow line (18) emerging against the liquid supply direction, in such a way that the distribution space (approximately in the axis of rotation (7) of the cylinder (1) 11) penetrating drain line (18) within the feed line (14) and with it in the bearing journal (2, 3) continuing to form an annular space (21). Cylinder according to claim 5, characterized in that the drain line (18) is designed as a bore (15) in the cylinder (1) and passes through the distribution space (11) as a tube (19). Cylinder according to claim 6, characterized in that a seal (20) separating the discharge line (18) from the distribution space (11) is arranged in the bore (15). Cylinder according to claim 1, characterized in that it is arranged in a bearing journal (2, 3) coaxial to the axis of rotation (7) of the cylinder (1) Feed line (14), which opens into a distribution space (11) provided on the cylinder end assigned to the bearing journal (2, 3), which through the line arrangement (13) with the one provided on the opposite cylinder end, one in its associated bearing journal (2,3 ) guided drain line (18) having a collecting space (12) is connected. Cylinder according to one of claims 2 to 8, characterized in that the distribution (11) or collecting space (12) is designed as a front-side depression (21) in the cylinder (1). Cylinder according to claim 9, characterized in that the recess (21) extends into the region of the line arrangement (13). Cylinder according to one of claims 2 to 10, characterized in that the bearing pins (2, 3) are releasably attached to the end faces of the cylinder (1) by means of a flange (22). Cylinder according to one of claims 10 and 11, characterized in that the bearing journal (2, 3) are attached to an adapter (23) immersed in the recess (21). Cylinder according to one of claims 2 to 12, on the circumference of which clamping and clamping devices (16) are provided for plate or other coverings. Cylinder according to claim 13, characterized in that the distribution and collecting spaces (11, 12) have a wall (approximately the cross-sectional shape of a channel (24) of the tensioning and clamping device (16), projecting laterally into the depression (21). 25) are formed.

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